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Session Details

Poster14. Pest Management

[Poster16]Pest Management

Wed. Aug 28, 2024 11:45 AM - 1:30 PM JST
Wed. Aug 28, 2024 2:45 AM - 4:30 AM UTC
Poster (Event Hall)

[P0544]Variants in Cas9 and nanos regulatory elements reduce resistance allele formation in homing gene drive

*Rachel Zhou1, Jie Du1, Jackson Champer1 (1. Center for Bioinformatics, School of Life Sciences, Center for Life Sciences, Peking University, Beijing 100871 (China))

[P0545]Microsatellite DNA marker analysis of population genetic structure of the generalist predatory mite Euseius sojaensis

*Yuki Kato1, Shuichi Yano1, Norihide Hinomoto1 (1. Laboratory of Ecological Information, Graduate School of Agriculture, Kyoto University (Japan))

[P0547]Integrating plastic mulches and kaolin clay for heat stress alleviation and insect pest prevention in tomato cultivation

*Emmanuel Torres1, Lorena Lopez1, Ricardo Gandini2 (1. North Carolina State University (United States of America), 2. Virginia Tech (United States of America))

[P0548]Responding to invasive species in the Pacific Northwest: merging research, extension, and outreach

*Silvia I Rondon1 (1. Oregon State University (United States of America))

[P0549]Challenges of developing IPM for a new pest in a niche crop: Stem-boring agromyzid in quinoa

*Adrianna Szczepaniec1, Neha Panwar1, Jorge Ibarra Caballero1, Jane Stewart1, Kevin Murphy2, Jeffery Davidson1 (1. Colorado State University (United States of America), 2. Washington State University (United States of America))

[P0550]The Implications of Climate Change on Coffee Leaf Miner (Leucoptera coffeella) and Coffee Production in southeastern Brazil

*Alessandra Marieli Vacari1, Vinícius Oliveira Lima1, Agda Braghini1, Pedro Sandoval dos Santos Ribeiro Cavallari1, Jonas Mendes Rodrigues Souza1, Gustavo Pincerato Figueiredo1, Guilherme Conceição Gonçalves1 (1. University of Franca (Brazil))

[P0551]Building an IPM program for the invasive Hibiscus Bud Weevil (Anthonomus testaceosquamosus Linell; Coleoptera: Curculionidae)

*Alexandra M Revynthi1, Yisell Velazquez Hernandez1, German Vargas2, Maria A Canon1, Livia M S Ataide1, Isamar Reyes Arauz1, A. Daniel Greene3, Kevin Cloonan4, Micah Gill4, Nurhayat Tabanca4, Xiangbing Yang4 (1. University of Florida (United States of America), 2. Cornell University (United States of America), 3. High Point University (United States of America), 4. United States Department of Agriculture-ARS (United States of America))

[P0552]Update of the Rice Delphacid (Hemiptera: Delphacidae) Mangement in Texas Rice

*Lina Bernaola1 (1. Texas A&M AgriLife Research (United States of America))

[P0553]Early Detection in Potential Insect Vectors of Ralstonia solanacearum: A Major Component of Integrated Pest Management Program in Potato

*Ma. Kimberly Cruz Suministrado1,2, Divina M. Amalin1, Evangelyn C. Alocilja3 (1. De La Salle University (Philippines), 2. University of the Philippines Los Banos (Philippines), 3. Michigan State University (United States of America))

[P0554]Identifying cassava genotypes resistant to the African cassava whitefly, Bemisia tabaci (Gennadius)

Jackie Atim1, Andrew Kalyebi2, Adriana Bohorquez--Chaux3, Christopher Omongo2, John Colvin1, *Maruthi M. N. Gowda1 (1. Natural Resources Institute, University of Greenwich, Chatham Maritime (UK), 2. National Crops Resources Research Institute, Kampala (Uganda), 3. International Center for Tropical Agriculture, Cali (Colombia))

[P0555]Can Aphis spiraecola outcompete A. pomi in European apple orchards?

*Viktor Markó1, Gábor Markó1, Georgina Alins2, Yvan Capowiez3, Petros Damos4, Nikoletta Galambos5, Stine Kramer Jacobsen6, Marcos Miñarro7, Fadil Musa8, Jana Ouředníčková9, Federico Pedrazzoli5, Wojciech Piotrowski10, Lene Sigsgaard6, Sylvaine Simon11, Michal Skalský9, Csaba Borbély1 (1. Institute of Plant Protection, Hungarian University of Agriculture and Life Sciences (Hungary), 2. Institut de Recerca i Tecnologia Agroalimentàries (IRTA) (Spain), 3. INRAE, UMR 1114 EMMAH, INRAE/University of Avignon (France), 4. Department of Agriculture, School of Agricultural Sciences, University of Western Macedonia (Greece), 5. Research and Innovation Centre, Fondazione Edmund Mach (Italy), 6. Department of Plant and Environmental Sciences, University of Copenhagen (Denmark), 7. Servicio Regional de Investigación y Desarrollo Agroalimentario (SERIDA) (Spain), 8. Department of Plant Protection, University of Prishtina Prishtina, Republic of Kosovo, 9. Research and Breeding Institute of Pomology Holovousy Ltd. (Czech Republic), 10. National Institute of Horticultural Research (Poland), 11. French National Institute for Agriculture, Food, and Environment (INRAE) (France))

[P0556]Estimation of parameters for development of the rice stink bug, Niphe elongata under fluctuating temperature condition

*Fumiya Sasaki1, Takuya Shiba1, Masahiro Hirae1, Keiichiro Matsukura1 (1. NARO, Institute for Plant Protection (Japan))

[P0557]How much does increasing landscape heterogeneity decrease biopesticide resistance evolution? Simulating evolution with constraints

*Blair Matarlo1,3, Luc F Bussiere1,3, A. Bradley Duthie2 (1. University of Gothenburg (Sweden), 2. University of Stirling (UK), 3. Gothenburg Global Biodiversity Centre (Sweden))

[P0558]A discrete-deme model for spatial population genetics that mimics continuous space allows improved realism for gene drive simulations

*Chengwei Shi1, Jiahe Li1, Jackson Champer1 (1. Peking University (China))

[P0559]Pruning damage to Camellia japonica caused by Ceresium holophaeum on Toshima Island, Tokyo

*Tadayuki Oshino1, Ayana Kato2, Hiroshi Oida3 (1. Hosei University (Japan), 2. Tokyo Metropolitan Agriculture and Forestry Research Center (Japan), 3. Hosei University (Japan))

[P0560]Spatial analysis of Frankliniella occidentalis in hot pepper greenhouse using geostatistical techniques

*SoEun Eom1, Taechul Park1, Jiwon Jeong1, Jung-Joon Park1,2 (1. Department of Plant Medicine, Gyeongsang National University (Korea), 2. Institute of Agriculture and Life Science, Gyeongsang National University (Korea))

[P0561]Anticipating the occurrence and type of critical transitions

*Chun Wei Chang1 (1. Institute of Fisheries Science, National Taiwan University, Taipei (Taiwan))

[P0562]Prediction of soybean pod borer Leguminivora glycinivorella (Lepidoptera, Tortricidae) damage using land use information

*Hideto Yoshimura1, Ken Tabuchi1, Ryuji Uesugi1 (1. Tohoku Agricultural Research Center, NARO (Japan))

[P0563]Evaluation of X-ray irradiation on tsetse fly (Glossina brevipalpis) as an alternative to gamma cell irradiation

*Moeti Oriel Taioe1,2, Molefe Percy Moyaba1, Michael Samuels3, Johan Esterhuizen1 (1. Agricultural Research Council (South Africa), 2. North-West University (South Africa), 3. National Institute for Communicable Diseases (South Africa))

[P0564]The species composition of aphid vectors (Hemiptera: Aphididae) of potato virus Y and harbored virus strains in potato fields at Hokkaido, a northern region of Japan

*Masakazu Sano1, Takehiro Ohki1, Kenji Takashino1, Shingo Toyoshima1, Tetsuo Maoka1 (1. Hokkaido Agricultural Research Center, National Agriculture and Food Research Organization (Japan))

[P0566]Finding potential vector of exotic Xylella fastidiosa in Australia

*Piotr Trebicki1, Cait Selleck 2, Narelle Nancarrow2, Jessica Hoskins3, Mark Blacket2 (1. Macquarie University (Australia), 2. Agriculture Victoria (Australia), 3. NSW Department of Primary Industries (Australia))

[P0567]Population survey of leafhopper species in sugarcane fields and detection of sugarcane white leaf phytoplasma in leafhopper vector

*Chananat Kaewmanee1, Butsayamas Photan1 (1. Mahidol University, Thailand)

[P0568]Emerging tree health issues of wattle plantations in Ethiopia

*Mesfin Wondafrash Gossa1, Agena Anjulo Tanga2, Kumela Regasa Tiki2, Weldesebet Beze Kassie2, Bernard Slippers3, Ilaria Germishuizen4, Simon Adrew Lawson5, Madaline Healey5, Brett phillip Hurley1 (1. Department of Zoology and Entomology, Forestry and Agricultural Biotechnology Institute (FABI), University of Pretoria (South Africa), 2. Ethiopian Forestry Development (EFD), Addis Ababa (Ethiopia), 3. Department of Biochemistry, Genetics and Microbiology; Forestry and Agricultural Biotechnology Institute (FABI), University of Pretoria (South Africa), 4. Institute for Commercial Forestry Research (ICFR), Scottsville (South Africa), 5. University of the Sunshine Coast, Department of Agriculture, Fisheries and Forestry Queensland, Brisbane (Australia))

[P0569]Oral toxicity of systemic insecticides to the invasive red-necked longhorn beetle Aromia bungii

*Eiriki Sunamura1, Shigeaki Tamura1, Hisatomo Taki1, Etsuko Shoda-Kagaya1 (1. Forestry and Forest Products Research Institute (Japan))

[P0570]Studies of flight characteristics of an ambrosia beetle, Platypus quercivorus, using improved flight mills

*Haruki Konishi1, Mizue Ohashi1, Hidetoshi Ikeno2, Ryuichi Okada3, Michimasa Yamasaki4, Yasuto Ito5, Duy Long Pham4 (1. University of Hyogo (Japan), 2. University of Fukuchiyama (Japan), 3. Kobe University (Japan), 4. Kyoto University (Japan), 5. Hyogo Prefectural Technology Center for Agriculture, Forestry and Fisheries, Forestry section (Japan))

[P0571]The suitability of rice as a host of the fall armyworm, Spodoptera frugiperda, and the mortality of its larvae infected by 11 isolates of Metarhizium

*Pei-Jung Lin1, Chang-Hsin Kuo1, Yen-Po Lin1 (1. National Chiayi University (Taiwan))

[P0572]Suitability of eight major crops in Japan for the development of Spodoptera frugiperda

*Sayumi Tanaka1, Nobuo Mizutani1, Mika Murata1 (1. National Agriculture and Food Research Organization (Japan))

[P0573]Population genomics and allochronic strain divergence as a framework for strain-specific management of the fall armyworm in North America

*Gregory A. Sword1, Tessnow E. Ashley1, Andie C. Miller1, Rodney N. Nagoshi2, Robert L. Meagher2, Todd M. Gilligan3 (1. Texas A&M University (United States of America), 2. United States Department of Agriculture-Agricultural Research Service (United States of America), 3. USDA-APHIS-PPQ-Science & Technology (United States of America))

[P0574]A novel pest suction machine promising control of Bemisia tabaci (Hemiptera: Aleyrodidae) in a tomato greenhouse

*Chiharu Saito1,4,5, Eiichi Makita1, Suguru Yamane1,6, Chihiro Urairi2, Takayuki Hoshi3, Makoto Doi1, Suzuka Yoshizaki1,6, Norihide Hinomoto4 (1. Shizuoka Research Institute of Agriculture and Forestry (Japan), 2. Institute of Vegetable and Floriculture Science, NARO (Japan), 3. Pixie Dust Technologies, Inc (Japan), 4. Laboratory of Ecological Information, Graduate School of Agriculture, Kyoto University (Japan), 5. Shizuoka Prefectural Western Agriculture and Forestry Office (Japan), 6. Shizuoka Prefectural Office (Japan))

[P0575]Cassava resistance to whitefly is correlated to the content of cyanogenic glucoside

*Ranran Pan1 (1. Zhejiang University (China))

[P0576]Genome-wide analysis of MYB family in Nicotiana benthamiana and the functional role of the key members in resistance to Bemisia tabaci

*Fengbin Zhang1 (1. Zhejiang University (China))

[P0577]Monitoring of the regional insecticide resistance of Bemisia tabaci collected from the pepper house in the Republic of Korea

*Gyeongmo Gu1, Jiseok Kim1, Seoyul Hwang 1, Donghun Kim1 (1. Kyungpook National University (Korea))

[P0578]Spatio-temporal changes in the African cassava whitefly, Bemisia tabaci, and their microbiome.

*Maruthi M. N. Gowda1, Hajar El Hamss1, Hadija Mussa Ally2, Christophe Simiand3, Sharon van Brunschot1, John Colvin1, Christopher Omongo 4, Helene Delatte3 (1. Natural Resources Institute, University of Greenwich (UK), 2. Tanzania Agricultural Research Institute-Ukiriguru (Tanzania), 3. CIRAD, UMR PVBMT (Réunion), 4. National Crops Resource Research Institute (Uganda))

[P0579]Evaluation of pesticides for African cassava whitefly management.

*Rekha Swamy1,2,3,4,5, Sharon L.van Brunschot2, Shai Morin3, John Colvin4 (1. Rekha AR Swamy (UK), 2. Sharon L. van Brunschot (UK), 3. Shai Morin (Israel), 4. John Colvin (UK), 5. Research Scientist/University of Greenwich)

[P0580]Recent evolution of tomato leaf curl New Delhi virus factors involved in host acquisition and host loss

*Svenning Moller1, Maruthi M. N. Gowda1 (1. Natural Resources Institute, University of Greenwich (UK))

[P0581]Behind the scenes of Popillia japonica’s integrated pest management: differentially expressed genes following different control treatments

*Claudio Cucini1, Rebecca Funari1, Elena Cardaioli1, Giovanni Marturano1, Francesco Paoli2, Antonio Carapelli1,3, Francesco Frati1,3, Francesco Nardi1,3 (1. University of Siena (Italy), 2. Research Centre for Plant Protection and Certification (CREA) (Italy), 3. National Biodiversity Future Center (NBFC) (Italy))

[P0582]Integrating and adapting long-lasting insecticide netting at food facilities with existing IPM programs to reduce pest infestation and ensure food security

*Sabita Ranabhat1, Daniel Brabec2, Alison R. Gerken2, Deanna S. Scheff2, Georgina V. Bingham3, Kun Yan Zhu1, William R. Morrison 2 (1. Kansas State University (United States of America), 2. USDA-ARS, Center for Grain and Animal Health Research (United States of America), 3. University of Nebraska-Lincoln (United States of America))

[P0583]Possibility of Using Pure Neem Oil, and Black Pepper Essential Oil to Coating Rice Seed for Controlling Stored Insect Pests and Effects on Seed Quality during Storage

*Pattamavadee Kunwanlee1, Tewee Maneerat1, Kanokwan Khunphrom1 (1. Faculty of natural resources, Prince of Songkla University (Thailand))
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